Regulation of Surface Coat Exchange by Differentiating African Trypanosomes

Overview

Journal Mol Biochem Parasitol

Specialties Biochemistry
Molecular Biology
Parasitology

Date 2006 Mar 28

PMID 16564583

Citations 28

Authors

Amy E Gruszynski

Frederick J van Deursen

Maria C Albareda

Alexander Best

Kshitiz Chaudhary

Laura J Cliffe

Laura Del Rio

Joe Dan Dunn

Louise Ellis

Krystal J Evans

Juliana M Figueiredo

Nicholas A Malmquist

Yusuf Omosun

Jennifer B Palenchar

Sara Prickett

George A Punkosdy

Giel van Dooren

Qian Wang

Anant K Menon

Keith R Matthews

James D Bangs

Affiliations

Soon will be listed here.

Abstract

African trypanosomes (Trypanosoma brucei) have a digenetic lifecycle that alternates between the mammalian bloodstream and the tsetse fly vector. In the bloodstream, replicating long slender parasites transform into non-dividing short stumpy forms. Upon transmission into the fly midgut, short stumpy cells differentiate into actively dividing procyclics. A hallmark of this process is the replacement of the bloodstream-stage surface coat composed of variant surface glycoprotein (VSG) with a new coat composed of procyclin. Pre-existing VSG is shed by a zinc metalloprotease activity (MSP-B) and glycosylphosphatidylinositol-specific phospholipase C (GPI-PLC). We now provide a detailed analysis of the coordinate and inverse regulation of these activities during synchronous differentiation. MSP-B mRNA and protein levels are upregulated during differentiation at the same time as proteolysis whereas GPI-PLC levels decrease. When transcription or translation is inhibited, VSG release is incomplete and a substantial amount of protein stays cell-associated. Both modes of release are still evident under these conditions, but GPI hydrolysis plays a quantitatively minor role during normal differentiation. Nevertheless, GPI biosynthesis shifts early in differentiation from a GPI-PLC sensitive structure to a resistant procyclic-type anchor. Translation inhibition also results in a marked increase in the mRNA levels of both MSP-B and GPI-PLC, consistent with negative regulation by labile protein factors. The relegation of short stumpy surface GPI-PLC to a secondary role in differentiation suggests that it may play a more important role as a virulence factor within the mammalian host.

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